Online Math Tutor LLC

Discover the Path to Mathematical Mastery 
An Education That Counts

Search
Close this search box.

Virtual Lessons: Undetermined Coefficients

The method of undetermined coefficients is a powerful technique used to solve nonhomogeneous linear differential equations. This method allows us to find a particular solution (\(y_p\)) to the differential equation by assuming a functional form for the solution and determining the values of its coefficients. It involves finding a particular solution to the equation by assuming that it has a certain form, based on the form of the nonhomogeneous term in the equation. The method relies on the principle that if a function and its derivatives are plugged into the differential equation and simplified to a constant or a combination of constants, then the function is a solution to the equation.

This approach is particularly useful when dealing with equations that have a polynomial, exponential, or trigonometric function on the right-hand side. The method of undetermined coefficients is particularly useful for solving differential equations with constant coefficients, where the nonhomogeneous term is a polynomial, an exponential function, a sine or cosine function, or a combination of these functions. By assuming a particular solution with the same form as the nonhomogeneous term, we can quickly find a solution without having to use more general techniques, such as variation of parameters or Laplace transforms.

To apply the method of undetermined coefficients, we first determine the homogeneous solution of the differential equation. This is the solution to the corresponding homogeneous equation, \(y_c\) which is obtained by setting the nonhomogeneous term to zero. Then, we assume a particular solution that has the same form as the nonhomogeneous term. In other words, we assume a form for the particular solution based on the right-hand side of the equation and solve for the unknown coefficients using the initial or boundary conditions. We then plug this solution into the differential equation and solve for the undetermined coefficients by equating coefficients of the same powers of the independent variable. Finally, we add the homogeneous solution and the particular solution to obtain the general solution to the nonhomogeneous equation.

In this section, we will explore the method of undetermined coefficients in detail and provide examples to illustrate the process. The method of undetermined coefficients is a powerful tool for solving nonhomogeneous linear differential equations, and is a useful skillset.

Undetermined Coefficients

1 Videos

Undetermined Coefficents